The courses contents are one and the same
of 2006-07 admitted students except the course codes and BEEDEE 501 – High
Voltage Engineering is
SUBJECTS
OF STUDY AND SYLLABI FOR
VII - SEMESTER
B.TECH (EEE) PROGRAMME
(2007 admission and afterwards)
Department of
Electrical & Electronics Engineering
Semester – 7
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Course Code
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Name of Course
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Periods/Week
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Credits
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L
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T
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P
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BEECEE 701
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Protection & Switchgear
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3
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1
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-
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4
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BEECEE 702
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Microcontrollers & applications
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3
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1
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-
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4
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BEECEE 703
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Generation, Operation and control
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4
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1
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-
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5
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BEECEC 704
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VLSI Design
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3
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1
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-
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4
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Electives(Two out of eight)
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BEEDEE 701
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Electric Drives & Control
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3
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1
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-
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4
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BEEDEE 702
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Power Systems Economics
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3
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1
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-
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4
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BEEDEE703
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Microprocessor based system Design
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3
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1
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-
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4
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BEEDME704
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Power Plant Engineering
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4
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-
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-
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4
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BEEDEE 705
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Electrical Machines Design
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3
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1
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-
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4
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BEEDEE 706
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Flexible AC Transmission Systems
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3
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1
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-
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4
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BEEDEE 707
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Fuzzy Logic & Neural Networks
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3
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1
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-
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4
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BEEDEE 708
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Static and Numerical Relays
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4
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-
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-
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4
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Laboratory
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BEECEE 705
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Microprocessor & Micro Controller Lab
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-
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3
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2
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BEECEE706
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Advanced Electrical Engg.
Lab
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-
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-
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3
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2
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19/20
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6
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6
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29
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BEECEE 701
PROTECTION & SWITCHGEAR
Credits : 4
Lecture period/week: 3
Tutorial period/week: 1
UNIT-1 (15 PERIODS)
General philosophy of
protection: Characteristic
functions of protective relays - Basic relay elements and relay terminology.
Classification of relays: Electromagnetic attraction type and
Electromagnetic induction type relays - Induction type non directional over
current & earth fault relay –Directional relay - Induction type directional
over current & earth fault relay - Under frequency relay and Negative
sequence relay - Introduction to solid state relays and comparison with electromagnetic
relays.
UNIT-II (15 PERIODS)
Generator protection: Differential protection schemes - Current
differential relay - Percentage differential relay - Voltage balance
differential relay -Translay relay - Stator phase fault protection - Loss of
excitation - Rotor faults - Numerical Problems.
Transformer protection: Over current protection - Buchholz relay-
Factors affecting differential protection – Percentage differential
protection - Percentage differential
relay with harmonic restraint - Numerical Problems
UNIT-III (15 PERIODS)
Transmission line protection: Over current protection - Distance
relays:-Impedance relay-Reactance relay - Mho relay - Characteristics - R-X
diagram - Carrier current scheme for transmission line protection -
Characteristics of fuse wires and HRC fuses - Lightning arresters.
UNIT-IV (15 PERIODS)
Arcing phenomena: Theory and method of arc quenching -
Circuit interruption in AC circuit breakers - Restriking voltage - Recovery
voltage - Current chopping - Capacitive current breaking - Resistance switching
- Circuit breaker rating - Numerical Problems.
Classification of circuit
breakers: Construction &
operation of circuit breakers: - Oil circuit breakers - Minimum oil circuit
breakers - Air blast circuit breakers – SF6 circuit breakers - Vacuum circuit
breakers - Miniature moulded case circuit breakers.
Text Books:
- Soni Guptha
& Bhatnagar, “Elements of Power systems”, Dhanpat Rai sons 1989
- Sunil S Rao,
“Switchgear,Protection and Power systems”, Khanna Publihers,New Delhi 1998
References:
- Badri Ram
& D.N. Viswakarma, “Power system Protection and Switch gear”, Tata
McGraw Hill Publishing Co.,Ltd.,new Delhi 1999
- C.L.Wadhwa,
“Electrical power systems”, New Age international (P) Ltd., publishers
2002.
- Y.G.Paithankar
and S.R. Bhide “Fundamentals of power system protection”, Prentice Hall of
India,2003
BEECEE 702 MICROCONTROLLERS
& APPLICATIONS
Credits : 4
Lecture period/week: 3
Tutorial period/week: 1
UNIT 1
12 periods
8051 Microcontroller General Introduction to Microcontroller
and Embedded Systems – Comparision with general purpose Microprocessor -
Features of Embedded Systems –
Internal Block Diagram of 8051 Microcontroller - On-chip serial and
parallel ports - - Overview of 8051
family - 8052 and 8031 chips – Atmel
59C51 Microcontroller.
8051 Registers: Register bank – PC, DPTR and PSW registers – RAM
memory – ROM memory - Stack - Memory map
– SFR Registers and their addresses
-Addressing methods - Immediate,
Register, Direct, Indirect and Indexed addressing
UNIT 2
18
periods
Programming of 8051: 8051
Assembly Programming – Structure of Assembly language - Steps to create and run
an assembly program – Data types and Assembler directives – Data Transfer
instructions – Arithmetic instructions – Stack related instructions – PUSH and
POP commands.
Jump, Loop and Call instructions: - Programs using these
instructions – Subroutines – RET and RET1 instructions. Simple assembly
language programs using above instructions-flow charts.
I/O Port Programming: Pin
description of 8051 – Multiplexing at Port 0 - Port 1 as input/output Dual role of Port 2 - Use of Port 3 pins for
serial communication and interrupts Single bit accessibility of ports.
UNIT 3
15 periods
Counter-Timer Programming of 8051:
Programming of 8051 timers –
Timer 0 and Timer 1 registers - Mode 1 and Mode 2 programming steps –
Calculations for specific delay and frequency – simple programs – Programming
as event counter – simple programs for event counting.
8051 Serial Communication: Basics of serial communication – Half
and full duplex transmission -
Asynchronous serial communication – data framing – data transfer rate –
RS 232 standards - Pins and signals of
DB-9 connector – 8051 connection to RS 232 -
Max 232 and 233 chips – 8051 registers for serial communication –
Programming of 8051 for serial communication – simple programs.
UNIT 4
15 periods
Applications of 8051: Introduction to Interrupt Programming -
Interrupts Vs polling – Interrupts of 8051 – Enabling and disabling of
interrupts – Interrupt pins INT 0 and INT 1 – Level and edge triggered
interrupts – Use of interrupt for Timer programming – simple program for the
same.
Interfacing of 8051:
Interfacing ADC 0804 chip and DAC chip
0808 – Interfacing LM 34 temperature sensor, Matrix Keyboard and Stepper Motor. (Hardware circuits only)
Text Book:
1 M.A. Mazidi & Janice Gillispie Mazidi : The
8051 Microcontroller and Embedded
Systems, Pearson
Education Inc., 2000.
References:
1. B. Ram : Fundamentals of Microprocessor and
Microcontroller, 4th revised
edition.
Dhanpat Rai &
Sons, New Delhi, 1996
2 Kenneth J Ayala
:8051 Microcontroller, Architecture, Programming & Applications,
Penram
International Publishing Co, 2000
3. Rajiv Kapadia
: 8051 Microcontroller and Embedded
Systems, Jaico Publishing
House, Delhi, 2004
4. Krishna Kant :
Microprocessor & Microcontroller Architecture, Programming and
System Design –
8085, 8086, 8051 and 8096, Prentice Hall, India, 2007.
BEECEE 703 GENERATION, OPERATIOIN AND CONTROL
Credits : 5
Lecture period/week: 4
Tutorial period/week: 1
UNIT – 1 (20 PERIODS)
Commercial sources of energy: Layout and working of steam, diesel,
nuclear and hydro power stations – Types of hydro power stations – comparison
of different power stations – Non conventional Energy Sources of energy –
layout and working of , Wind Energy Conversion System (WECS), Solar Pond,
Central receiver and tidal power plant.
UNIT – 2
(15 PERIODS)
Economic consideration: Choice of power plants – hydro, thermal and
nuclear plants – cost of generation – production cost – plant cost -
factors affecting cost of operation
units – Number and size of generating units – Tariffs – desirable
characteristics of a tariff – types of tariff
UNIT – 3
(20 PERIODS)
Flat frequency control: Real power balance for load changes –
interconnected operation – Flat frequency control of interconnected stations –
Flat tie-line and flat frequency control –Tie-line bias control
Load frequency control of single area systems: Speed governing
system– turbine generator response – static performance of speed governor –
Concept of control area – static response of primary ALFC loop and dynamic
response of ALFC loop
UNIT - 4
(20 PERIODS)
Excitation and Var Compensation: Automatic Voltage Regulator (AVR)
– Static and Dynamic performance of AVR loop - Reactive power control to
improve voltage profile – system voltage and reactive power – reactive power
generation by synchronous machine – tap changing transformers – Static Var
Compensation – over voltage on sudden loss of load – voltage dips –Sub
synchronous resonance
Text Books:
- A.J.Wood and Wollenberg, Power Generation Operation and Control, John Willy Publications, 2nd ed, 1996
- Soni Gupta Bhatnagar, “Elements of Power System” Dhanpat Rai Sons, 1998.
References:
- P.S. Murthy, “Power System Operation and Control”, Tata McGraw Hill, First Edition, 1984
- Olle.L.Elgerd, “Electric Energy System theory- An introduction”, Tata McGraw Hill, 2nd ed, 1985.
- G.D.Rai “ Non Conventional sources of Energy” Khanna Publishers, Fourth Edition, 1997
- C.L.Wadhwa “Electrical Power systems” New Age International (P) Limited, Pub lishers. Third Edition, 2006.
BEECEC 704 VLSI DESIGN
Credits : 4
Lecture period/week: 3
Tutorial period/week: 1
UNIT 1 (15 PERIODS)
CMOS Processing
Technologies: Introduction to Integrated circuit Technology – Basic MOS
transistors – Enhancement mode, depletion mode – Basic properties of CMOS –
Review of fabrication of FET, transistor, monolithic diodes, Capacitors and
resistors. Basic CMOS technology n well process, p-well process, twin tub
UNIT II (15 PERIODS)
Inverter: CMOS
inverter – dc characteristics, dynamic characteristics – Analytic delay model,
CMOS - Gate transistor design, Power dissipation, Noise margin, Parasitic
capacitance, design rules Lamda based rule CMOS logic gate design, = CMOS NAND
and NOR, fan in, fan out- CMOS logic structures – CMOS complementary logic, Transmission gates – BiCMOS
logic, Pseudo n-MOS logic – Dynamic CMOS logic-Clocked CMOS logic-pass
transistor logic =CMOS domino logic = clocking strategies latches and
registers, two phase clocking.
UNIT III (15 PERIODS)
CMOS Subsystem
Design: Single bit adder – Transmission gate adder Carry look ahead adder – carry select adders
- carry by pass adders – mirror adder, Array multiplication Wallace tree
multiplication, RAM, ROM, PLA control implementation, Decoders – shifters, PAL.
UNIT IV (15 PERIODS)
Design Methodology
& Submicron Technology: Introduction - Ground rules for successful
design- Design Rule checkers (DRC)-
Simulators – Introduction to Gallium arsenide Technology – Technology
development- GaAs devices Introduction to MESFET V I characteristics of MOSFET
– MOSFET as inverter.
Text Book:
1. Dougles A. Pucknell & Kamran Eshraghian, “Basic VLSI
design”, third edition
Prentice hall of
India Ltd, 1995.
References:
1. JAN. M. Rabaey, “Digital Integrated circuits A design
perspective”, Practice Hall of
India, 3rd edition,
2001
2. A. Neil H.E. Weste, Kamran Eshraghian “Principles of CMOS
VLSI design, a system
perspective,
Second edition, Pearson education 2004.
BEEDEE 701 ELECTRICAL DRIVES AND CONTROL
Credits : 4
Lecture period/week: 3
Tutorial period/week: 1
UNIT-1
(18 PERIODS)
Characteristics
of Electric Drives: Speed-torque
characteristics of various types of loads and drive motors - coupled speed -
torque characteristics – different techniques of speed control and methods of
braking of series and separately excited DC motors.
DC
Drives : Ward-Leonard scheme - drawbacks
- thyristor converter fed dc drives -
one, two and four quadrant operations - chopper fed dc drives – TRC, CLC
control strategy - one, two and four quadrant operations - effect of ripples on
the dc motor performance.
UNIT-2 (16
PERIODS)
Three
phase Induction Motor Drives: Speed
control of 3 phase induction motor - stator control - stator voltage, frequency
control - AC voltage controller, inverter and cycloconverter fed induction
motor drives.
Rotor control: Rotor resistance control
and slip power recovery systems - static control of rotor resistance using DC
chopper, static Kramer and Scherbius drives – Dynamic and regenerative braking
of CSI and VSI drive.
UNIT-3
(16 PERIODS)
Three
phase Synchronous Motor Control:
Speed control of three phase synchronous motors - types of control - VSI
and CSI fed synchronous motors - commutatorless dc motors - brushless dc and ac
motors – cycloconverter fed synchronous motors - Effect of harmonics on ac
motor performance.
UNIT-4
(10 PERIODS)
Concept
of closed loop control: Speed loop, current loop, armature current reversal
and field current reversal
Digital
Control and Drive applications: Digital
techniques in speed control - advantages and limitations - microprocessor based
control of dc and ac drives -Selection of drives and control schemes for steel
rolling mills, paper mills, textile mills, lifts and cranes.
Text Book:
1.
V.Subramanyam, Electric Drives - Concepts and
Applications, Tata McGraw Hill 1999.
References:
1. P.C.Sen, Thyristor DC Drivers, John
Wiley & Sons, New York 1981.
2.
B.K.Bose, Power Electronics and AC Drives, Prentice
Hall, 1986.
3.
Shephered.W and Hulley, L.N ` Power Electronics &
Motor control, Cambridge University Press, 1987
4.
S.K.Pillai, A First Course on Electrical Drives, New
Age Publishers 1989.
5.
Gopal K.Dubey, Fundamentals of Electric Drives, Narosa
Publishers 1995.
BEEDEE 702 POWER SYSTEM ECONOMICS
Credits : 4
Lecture period/week: 3
Tutorial period/week: 1
UNIT 1 (15 PERIODS)
Generation Scheduling (Thermal
System): Introduction – Characteristics and
operation of steam plants – Input/Output curve – Incremental fuel rate –
Economic dispatch problem – Optimum generation scheduling without transmission
losses – Optimum generation scheduling with transmission losses –
Lambda-iteration method – Two-generation system.
UNIT 2 (15 PERIODS)
Economic Operation: Transmission system effect – Bmn Coefficient
– Loss formula calculation – Coordination equation of generation among ‘n’
power plants - Incremental losses – Penalty factor – Base point and
Participation factor method – Loss minimization by reactive power control –
Active and reactive power optimization – Automatic load dispatch.
UNIT 3 (15
PERIODS)
Unit Commitment: Introduction – Constraints in unit commitment –
Spinning reserve – Thermal unit constraints – Other constraints – Solution
using priority list method – Dynamic programming method – Forward DP approach –
Backward DP approach – Lagrangian relaxation method – Adjusting l (Incremental cost)
UNIT 4 (15
PERIODS)
Hydro-Thermal Scheduling: Long
range hydro scheduling – Short range hydro scheduling – Hydro electric plant
model – Scheduling problem – The short term hydrothermal scheduling problem –
Hydro units in series – Pumped storage hydro scheduling with l-g iteration – Dynamic
programming solution to the hydro thermal scheduling problem.
Text Books:
- Kirchmayer. L. K - “Economic Operation of Power System”, John Wiley and Sons, New York 1993
- Allen J.Wood and Bruce F. Wollenberg - “Power generation, Operation and Control”, John Wiley and Sons, New York 1996.
References:
- B. R. Gupta - “Generation of Electrical Energy”, Eurasia Publishing house Pvt. Ltd., New Delhi 2001.
- C. L. Wadhwa – “Electrical Power System”, New Age International (P) Ltd, New Delhi 2002.
- D. P. Kothari and J. S. Dhillon – “Power System Optimization”, Prentice Hall of India Pvt. Ltd., New Delhi 2004.
BEEDEE 703 MICROPROCESSOR BASED SYSTEM DESIGN
Credits : 4
Lecture period/week: 3
Tutorial period/week: 1
UNIT 1
(15 PERIODS)
Review of Intel 8086/8088 architecture: Software model and memory
address space. – Review of Segment, Data, Pointer, Index, Stack and Flag
Registers - Segmentation – its advantages and disadvantages. Generation of Memory address – 8088 pinout diagram.- Minimum and Maximum
modes. And the corresponding pin descriptions - Block diagram of external memory
addressing scheme - Bus cycles - Timing diagram for minimum mode memory read
and write cycles - Address decoding and
memory system design in minimum mode. Memory map.
UNIT 2 (15
PERIODS)
8088 Programming: Programming model – Operand types – Addressing
modes - Immediate, Register, Direct,
Register indirect, Indexed and Relative addressing modes - Instruction format - Instruction set – Data
transfer, Arithmetic, Logical, Branch and Control groups – Overview of the
instructions and developing simple
assembly level programs. - Assembler
directives.
UNIT 3
(15
PERIODS) 8088 Interfacing: I/O interfacing – Isolated and Memory mapped
interfacing – Input-Output instructions -
I/O bus cycle in minimum mode – I/O
read and write cycles – General ideas for Interfacing of Keyboard and
Display with 8088 – Flowchart - Block
diagram of Intel 8279 KB and Display Controller - Block schematic of KB and display interface
with 8088 using 8279.
UNIT 4
(15
PERIODS)
Interrupts in 8088: Interrupt pins -Interrupt acknowledge timing
diagram - 8259 PIC Functional block diagram – interfacing of
8259 with 8088 processor - Block diagram of 8257 DMA controller and its
interface with 8088.
Application of 8088 for phase
angle control of single phase and 3-phase bridge rectifiers using 8255 PPI and
8253 PIT I.C.’s. – Application to DC chopper control Application to PWM
inverters – control of frequency and voltage -. Flow charts for the above
Case studies - Application of
8088 to Mining flood control problem - Application to Turbine Monitoring
problem – Flow charts for the above.
Text Book:
1. Walter A. Tiebel
and Avtar Singh: The 8088 and 8086 Microprocessors Progra-
mming,
Interfacing, Software, Hardware and Applications – Prentice Hall, India New
Delhi, 1995.
References:
2. A.K. Roy and K.M.
Bhurchandi : Advanced Microprocessors and Peripherals
Architectur,
Programming and Peripherals, McGraw Hill, New Delhi, 2003
2. Krishna Kant:
Microprocessors and Microcontrollers – Architecture, Programming
and System
Design, Prentice Hall, India, 2007.
BEEDME 704 POWER PLANT ENGINEERING
Credits : 4
Lecture period/week: 3
Tutorial period/week: 1
UNIT-1
(15 PERIODS)
Steam power plant: Layout – components
– fuel systems – coal and oil – furnaces
types - gas firing – fluidized bed combustion – boilers – types - high pressure and supercritical boilers –
ash handling – fuel handling – dust collectors – types – air pre heaters –
economizers – superheaters – reheaters – condensers – cooling towers - draught systems – feed water treatment –
cogeneration – different types – advantages. (Qualitative treatment only).
UNIT-2
(15 PERIODS)
Nuclear Plants:
Chain reactions – neutron energies – neutron cross-section – nuclear reactors –
types – components – moderators – fuel rods – control rods – radiation – shield
– types of nuclear plants Gas turbine power plants – types – components –
applications – combined cycle power generation – types – advantages.
Diesel engine power plants: Layouts – components – different
systems – selection engines – applications (Qualitative treatment only).
UNIT-3 (15
PERIODS)
Hydroelectric power
plants: Layouts – selection of hydraulic turbines – types of hydel plants –
applications.
Solar energy:
Types of solar power plants – layouts – components – applications –
limitations.
Wind energy:
Wind mills – types – components – wind farming
- applications – limitations.
Other Types: Fuel
cell power plants – Tidal power plants - geothermal power plants (Qualitative
treatment only).
UNIT-4 (15
PERIODS)
Power plant
economics: Load curve – capacity curve heat rate – plant load factor
capacity factor – various costs – cost of power generation – tariffs –
comparison of the economics of different power plants – simple problems.
Pollution:
Particulate emission – gasening emission
- thermal pollution – pollutants from various power plants – mitigation
– nuclear wastes – nuclear radiation hazards – measurements – nuclear waste
disposal – methods – nuclear fuel reprocessing.
Text Book:
1.
P.K.Nag ‘Power Plant Engineering – Steam and Nuclear’
Tata McGraw Hill, 2nd edition2002.
References:
1.
G.D.Rai ‘ An Introduction to Power Plant Technology’ Khanna Publishers,
1996.
2.
S.P.Sukhatme ‘ Solar Energy’ Tata McGraw Hill, 2nd
Edition 1996.
3.
M.M.El. Wakil ‘Power Plant Technology’ McGraw Hill,
1998.
4.
G.R.Nagpal ‘ Power Plant Engineering’ Khanna Publishers
1998.
5.
S.Dhomkundwar ‘Power Plant Engineering’ Khanna
Publishers, 2000.
6.
A.W.Clulp Jr. ‘Principles of Energy Conversion’ McGraw
Hill, 2nd Edition 2001.
BEEDEE 705 ELECTRICAL MACHINE DESIGN
Credits : 4
Lecture period/week: 3
Tutorial period/week: 1
UNIT-1 (15
PERIODS)
Basic Considerations: Constructional elements of transformers and
rotating machines - classification of design problems - general design
procedure - standard specifications - output coefficient - choice of specific
electric and magnetic loading - separation of D and L of rotating machines.
UNIT-2
(18 PERIODS)
Transformers: Specific loadings - Output equation - design
of core and coils - leading dimensions - design of tank and cooling tubes - no
load current of single phase and 3 phase transformers - leakage reactance -
equivalent circuit - design example - heating, cooling and temperature rise
calculations.
D.C.Machines: Specific loadings - output equation - output
coefficient - choice of speed and number of poles - main dimensions - design of
conductors, slots and windings - airgap - Carter's coefficient - real and
apparent flux density - design of field winding - design of commutator and
brushes - design example.
UNIT-3
(15 PERIODS)
Induction Motors: Output equation - choice of specific loading
- main dimensions - stator and rotor slot arrangements - leakage reactance
calculations - airgap length - rotor bar and end ring currents - equivalent
reactance of cage rotor - calculation of equivalent circuit parameters and
magnetising current from design data - design example.
UNIT-4
(12 PERIODS)
Alternators: Output equation - choice of specific electric
and magnetic loadings - main dimensions of salient pole machines - shape of
pole face - turns per phase - number of slots - slot dimensions - design of
rotor poles - design of field windings - damper winding layout. Turbo alternators - main dimensions - length
of airgap - design of stator slots - rotor number of turns and exciting
current. O.C.C and regulation from
design data. Design example.
Text Book:
1. Sawheny A.K, Electrical Machine Design,
Dhanpat Rai & Sons, Delhi, fourth
edition, 1984.
References:
1.
Clayton, Performance & Design of DC Machines, (CBS)
1958.
2.
Say M.G, Performance & Design of AC machines, (CBS)
1958.
3.
Mittle V.N., Mittle A., Design of Electrical Machines,
Standard Publishers and
Distributers,
4th edition, 1998.
BEEDEE 706 FLEXIBLE AC TRANSMISSION SYSTEMS
Credits : 4
Lecture period/week: 3
Tutorial period/week: 1
UNIT: 1 (15 PERIODS)
FACTS concepts: Basic types of FACTS controllers – benefits from
FACTS technology – Basic of Voltage sourced Converters – single phase and three
phase bridges converter operation – PWM Converter and Basic Concept of Current
sourced Converters with and without gate turnoff – Comparison of HVDC and
FACTS.
UNIT: 2 (15 PERIODS)
Shunt Compensation: Objectives of Shunt Compensation- Methods of
Controllable Var Generation – Static Var compensators – SVC, STATCOM-
Compensator Control – Comparison between SVC & STATCOM
UNIT: 3 (15 PERIODS)
Series Compensation: Objectives of Series Compensation-Variable
Impedance type series compensators – GCSC, TSSC and TCSC – basic control
schemes – Switching converter type Series compensators: SSSC – P-d
characteristics – Control range – internal and external control.
UNIT: 4 (15 PERIODS)
Combined Compensators: Introduction – Unified Power Flow Controller
(UPFC) – Operating principles, conventional transmission control capabilities,
independent real and reactive power flow control, control structure – Interline
Power Flow Controller (IPFC) - operating principles, characteristics and
control structure.
Text Book:
1. N.G.
Hingorani, L. Gyugyi, “Understanding FACTS – Concepts and Technology of
Flexible AC Transmission Systems”, IEEE Power Engineering Society, 2001
References:
1.
P.Kundur, “Power System Stability and Control “, McGraw Hill,1994
2. Y.-H.
Song and A.T. Johns, “Flexible A.C. Transmission Systems (FACTS)”, IEE Book
series, 1999.
3. J.
Arrillaga and N.R. Watson, “ Computer modeling of Electric Power Systems”, John
Wiley & sons, 2001.
BEEDEE 707 FUZZY LOGIC AND NEURAL NETWORKS
Credits : 4
Lecture period/week: 3
Tutorial period/week: 1
UNIT-1
(15 PERIODS)
Introduction to Artificial Neural Systems
(ANS): Single Neuron Physiology - Synaptic Junction - Neural Circuits and computation – Supervised and
unsupervised learning-Network learning rules--concept of training and
generalization- the perception and linear separable functions- Multilayer feed
forward networks- Back propagation algorithm
UNIT-2 (15PERIODS)
Introduction to optimization: Gradient
descent and random search- recurrent neural networks – Hopfield Neural networks
and Boltzmann machine – Competitive learning – Simple competitive networks –
Kohonen’s self organizing networks
UNIT-3 (15PERIODS)
Fuzzy
sets: Fuzzy set Operations - Properties of Fuzzy sets - Cardinality of Fuzzy Relations - Operations of Fuzzy
Relations - Properties of Fuzzy Relations -
Value assignments - Cosine Amplitude - Max-Min Method - Other similar
methods - Membership functions -- Standard Forms and Boundaries - Fuzzification
- Membership Value Assignment
UNIT-4
(15PERIODS)
Fuzzy to crisp conversions: λ cuts for
Fuzzy sets - λ cuts for Fuzzy relations - Defuzzification methods - Extension
Principles - Functions of Fuzzy Sets – Fuzzy numbers –fuzzy transforms- Fuzzy
vectors - Fuzzy rule based system – fuzzy controllers – an over view- an example.
Text
Books:
1.
Timothy J.Rose “Fuzzy Logic with Engineering
Applications”, McGraw Hill Inc., 1995.
2.
J.A.Zurada, “Introduction to Artificial Neural Systems”
Jaico Books, 1999.
References:
1. Bose N.K. and Liang.P, “Neural network
fundamentals with graphs, Algorithms and
Applications”, Tata Mc Graw Hill, New
Delhi, 1996.
2. B.Yegnanarayana, “Artificial Neural
networks”, Prentice Hall of India, 1999.
3. George j. Klir/Bo Yuan “Fuzzy sets and fuzzy
logic-theory and applications”
Prentice hall of India., 2001.
4. Stanishlaw H. Zah, “Systems and Control”,
Oxford University Press, 2003.
BEEDEE 708 STATIC AND
NUMERICAL RELAYS
Credits : 4
Lecture period/week: 4
UNIT – 1 (15 PERIODS)
Philosophy of power system
protection and its requirements – Basic
construction of static relays – conventional Vs static relays –
generalized characteristics and
operational equations of relays – Complete
Electronic protective relays –
Complete system of protection –
Characteristic function of protective relays.
UNIT – 2 (15 PERIODS)
Comparators and associated
elements – Phase and Amplitude comparator – Different types of comparator –
Threshold characteristics of amplitude and phase comparator – Duality between
phase and Amplitude comparator.
UNIT – 3 (15 PERIODS)
Static over current relays-
differential relays – Distance relays – Single and Polyphase differential
protection – directional relay – carrier current protection scheme.
UNIT – 4 (15 PERIODS)
Microprocessor based relays –
Multistage frequency relay – Under frequency relays with decay rate
compensation – Measurement of power system signals through phase locked loop
interface – protection of Alternator against loss of excitation –
microprocessor based implementation of directional and impedance relay.
Text Books:
- T.S. Madhava Rao, Power system Protection, Static Relays, Tata McGraw Hill, second edition, 1980.
- Badriram and D.N. Vishwakarma, Power System Protection and Switch Gear, Tata McGraw Hill, 2001.
References:
- C.L. Wadhwa, Electrical Power Systems, New Age International (p) Ltd, fourth edition, 2006.
BEECEE 705 MICROPROCESSOR & MICROCONTROLLER LAB
Credits
: 2
No. of Periods/week: 3
1. Programs using Data Transfer Instructions
(8085)
2 Programs using Arithmetic Instructions
(8085)
3 Programs using Logical and Branch
Instructions (8085)
4 Programs using interrupts in 8085
5 Code conversion Programs using 8085
6 Measurement of Voltage, Current and Power
using 8085
7 Assembling and Execution of 8051 Programs
in
a)
Stand alone mode b) Serial Mode with PC
8 Multiplication & Division and sorting
using 8051
9 Generation of square, triangular and ramp
waveforms using DAC in 8051
10
Stepper Motor control using 8051
11
Measurement of frequency and phase angle using 8051
12 Programming the Timer of 8051 for baud rate
13 8051 SBC Evaluation Board (SBC)
14 Development of C language program in SBC
Evaluation Board
BEECEE 706 ADVANCED ELECTRICAL ENGINEERING
LAB
Credits
: 2
No. of Periods/week: 3
- Transformer oil Testing
- High voltage impulse with stand test
- Measurement of high voltage AC & DC
- Real power, Reactive power, Apparent Power and power factor measurement using power quality analyzer.
- Harmonic measurement using power quality analyzer.
- Y-Bus formation using MAT Lab.
- Z-Bus formation using MAT Lab.
- Load flow study using PSCAD, DAPPER, ETAP software
- short circuit study using PSCAD, DAPPER, ETAP software
10. Mat lab simulation in Electrical Circuits (RL, RC, and RLC)
11. Mat lab simulation (Load frequency Control)
12. Mat lab coding (Four control system experiments)
13. Power system Generator protection experiment
14. Power System Transformer protection experiment
Any twelve
experiments only.
SUBJECTS
OF STUDY AND SYLLABI FOR
VIII - SEMESTER
B.TECH (EEE) PROGRAMME
(2007 admission and afterwards)
Department of
Electrical & Electronics Engineering
Semester – 8
|
Course Code
|
Name of Course
|
Periods/Week
|
Credits
|
||
|
L
|
T
|
P
|
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**Open Electives –Four Courses to be
chosen from a common pool of Open
Electives offered by various depts.
|
|||||
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Oxxxxx
|
Open Electives
|
|
|
|
4 x 3 = 12
|
|
Project work
|
|||||
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BEECEE 8O1
|
Project & Seminar
|
|
|
|
09
|
|
|
|
|
|
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09 to 21
|
BEECEE
801 PROJECT AND SEMINAR
CREDITS: 09
A group of not more than 3 students
is expected to take up a project guided by a faculty member and approved by the
concerned HOD/DOS. They can work in the department/school or in an
industry/organization or partly in the industry and partly in the department. There will be an internal guide in all
cases. In case the candidates take up
the project work in an industry, there will also be an external guide. The topic may be in the nature of design and
fabrication/fabrication and testing/software development/theoretical
investigation and simulation in the broad area of electrical engineering. The candidates should appear for three
reviews during the VIII semester. During
the reviews they should give presentations about the area or topic of their
project, progress of their project and
final status of their project. On completion of the project the students should
submit the completed project report which will be evaluated by the academy.
Evaluation Pattern
3 Reviews -- 30 marks
Internal Examiner (Viva Voce) -- 20 marks
External Examiner (Viva Voce) -- 20 marks
External Examiner (Project
evaluation) -- 30 marks
Total -- 100
marks
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